Locating, locking, and indicating means for a shiftable gear



Jan. 25, 1938.

J. C WOOD FORD LOCATlNG,- LOCKING, AND INDICATING MEANS FOR A SHIFTABLE GEAR Filed Oct. 31, 1934 13 Sheets-Shae v l &

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m z/vro/z- 1/0551 C'Woomv/eo, fw j jififiji i? Jan; 25, 1938. J WOODFORD 2,106,686

LOCATING, LOCKING, AND INDICATING MEANS FOR A SHIFTABLE GEAR Filed Oct. 51, 1934 13 Sheets-Sheet 2 "iG N s mfffibillvmzn k/OSEPH C Wrap/mm K/7*? M/ Jan, 25, 1938. J. c. WOODFORD 2,106,685

I LOCATING, LOCKING, AND INDICATING MEANS FOR A SHIFTABLE GEAR Filed Oct. 31, 1934 13 Sheets-sheaf. 3

Jan. 25, 1938. J. c. WOODFORD 2,106,686

LOCATING, LOCKING, AND INDICATING MEANS FOR A SHIFTABLE GEAR Filed 001'. 31, 1934 13 Sheets-Sheet 4 Jan. 25, 1938. J. c. WOODFORD 2,106,686

LOCATING, LOCKING, AND INDICATING MEANS FOR A SHIFTABLE GEAR Filed Oct. 51, 1934 1S Sheets-Sheet 6 Jan. 25, 1938. J. c. WOODFORD LOCATING, LOCKING, AND INDICATING MEANS FOR A SHIFTABLE GEAR Filed Oct. 31, 1934 15 Sheets-Sheet 7 Jan. 25, 1938. J. c. WOODFORD 2,106,686

LOCATING, LOCKING, AND INDICATING MEANS FOR A SHIFTABLE GEAR Filed Oct. 31, 1934 15 Sheets-Sheet 8 (22g Om Fla /l3 Aw //VV(Y 70/5 Mass/w C Waoofaea,

Jan. 25, 1938. J. c. WOODFORD v v 2,106,536

LOCA'IING, LOCKING, AND INDICATING MEANS FOR A SHIFTABLE GEAR Filed 001;. 51, 1934 15 Sheets- Sheet 9 Flam- /KV W M 125 W 56 755 191 1 62! 49 157 O 760 ,5 1 1 12;! 150179778 174 g 179 18! 41/? E 7&8 I I r l i p31 5 I I" l 151 MA 182 .735 I LOCATING, L6CKING, AND INDICATING MEANS FOR A SHIFTABLE GEAR- Filed Oct. 31, 1954 15 Sheets-Sheet l0 Flam //VV/V7'0E: LAJSEPH C. WOOPFOED,

W W/ Z Jan. 25, 1938. J. c. WOODFORD LOCATING, LOCKING, AND INDICATING MEANS FOR A SHIFTABLE GEAR Filed Oct. 31, 1934 1.3 Sheets-Sheet 1.1

J. C. WOODFORD Jan. 25, 1938. 2,106,686

LOCKING, AND INDICATING MEANS FOR A SHIFTABLE GEAR LOCATING,

Filed Oct". 31, 1954 15 Sheets-Sheet 12 EYE m.

I k i WVE/YTO/E: L/OSEP'H vC. Main/ 0170,

Jain; 25, 1938. Jvc. WOODF'ORD 86.

LOCA'i'lNG, LOCKING, AND INDICATING MEANS FOR A SHIFTABLE GEAR Filed Oct. 31. 1934 15 Sheets-Sheet l3 1 Flam 59 H5 5511 .gzy' j J i1? 1Z8 I 521 Patented Jan. 25, 1938 LOCATING, LOCKING, AND INDICATING MEANS FOR A SHIFTABLE GEAR Joseph C. Woodford, Haverford, Pa., assignor to John Wood Manufacturing Company, Inc., Conshohocken, Pa., a corporation of Delaware Application October 31, 1934, Serial No. 750,805

4 Claims. (Cl. 74-848) My invention is particularly applicable to metering pumps for dispensing gasolene. The vol-' ume of gasolene dispensed is usually measured in gallons and fractions of a gallon and the price thereof varies in fractions of a cent. Therefore, the purpose and effect of my invention is to provide manually variable means for displaying the current price of gasolene and means for not only registering the volume dispensed at each dispensing operation in gallons and fractions of a gallon, but also computing and registering the value of the volume dispensed at each dispensing operation in cents and fractions of a cent.

The principal object and effect of my invention is to provide interlocking means for connecting the price displaying means with the value computing means, so that when said means are interlocked, the value is computed in precise accordance with the price displayed.

In the form of my invention illustrated, the value based upon the whole cents of the price and the value based upon any fraction of a cent'of the price are separately automatically computed by different mechanisms, and the product of the computation aggregated automatically in the registration of the value of the volume dispensed; both of said computing mechanisms being operated in conformity with and preferably by rotation of a meter through which the liquid is dispensed.

As hereinafter described, my invention includes the provision of manually rotary indicating means for displaying the price including a rotary member having recesses its circumference longitudinally spaced withrespect to its axis of rotation and adapted to engage the interlocking means for connecting it with the computing mechanism. The computing mechanism includes a conical assemblage of gears of different sizes respectively corresponding with whole cents of the price and the interlocking means for that whole cents computing mechanism includes a movable gear which connects the meter mechanism of the dispensing apparatus with any manually selected one of said conical assemblage of gears. In that embodiment of my invention, I have found it convenient to include means for computing the value of the volumedispensed with reference to the fractional cent portion of the price, consisting of a series of rotary cams respectively corresponding with different numbers of tenths of a cent of the price, which cam computing mechanism is not herein claimed. It is to be understood that any other suitable means may be employed for that purpose.

An advantageous feature of the form of my invention illustrated is that in lieu of the ordinary means of indicating or registering the volume of liquid dispensed, consisting of a circular dial, I provide a panel with three windows therein with registering mechanism operatively related to those windows so as to display at one window entitled Amount of sale the value of the liquid dispensedat one operation in cents and fractions of a cent; to display at thesecond window the price in cents and fractions of a cent at which said Amount of sale" is computed; and to display at the third window a registration of the volume dispensed in gallons and fractions of a gallon.

My invention includes the various novel features of construction and arrangement hereinafter more definitely specified.

In said drawings, Fig. I is an elevation of a metering pump of the curbstandtype, conveniently embodying my invention. Fig. II is an elevation of the panel indicated at the upper portion of Fig. I, for displaying the three groups of figures respectively indicating .the volume of liquid dispensed, the price per gallon, and the computed value of the volume dispensed at said price. 4 Fig. III is an elevation of the dials immediately behind the panel shown in Fig. 11 and carrying the numbers displayed through the three windows of said panel. Fig. IV is a vertical sectional view of the computing and registering mechanism including said dials, taken on the line IV, IV in Fig. III. Fig. V is a plan sectional view of said computing and registering mechanism, taken on the line V, V in Figs. III and IV. Fig. VI is a fragmentary vertical sectional view, taken on the line VI, VI in Fig. V, in the direction of the arrows on said line. Fig. VII is a right hand end elevation of the computing and registering mechanism as shown in Figs. IV and V, but with the dials removed. Fig. VIII is a vertical sectional view, taken on the line VIII, VIII in Fig. IV, in the direction of the arrows on said line. Fig. IX is a fragmentary vertical sectionalview, taken on the line IX, IX in Fig. V, in the direction of the arrows on said line, and showing the price interlocking means for the whole cents computing mechanism. Fig. X is a fragmentary vertical sectional view, taken on the line X, X in Fig; V, in the direction of the arrows on said line, and showing the price interlocking means for the fractional computing mechanism. Figs.- XI and XII are respectively plan views of the-keeper pawl and the driver pawl indicated in Fig. X. Fig. XIlI'is a fragmentary plan view showing the connections for operating the dollar dials by the cents dials; which dials are in coaxial relation as shown in Fig. III. Fig. XIV is members 2 and I.

a fragmentary vertical sectional view, taken on the line XIV, XIV in Fig. XIII, in the direction of the arrows on said line. Fig. XV is a fragmentary vertical sectional view, taken on the'line XV, XV in Fig. XlII, in the direction of the arrows on said line, showing the escapement for the spring connection between said dollars and cents dials.

Fig. XVI is a fragmentary vertical sectional view, taken on the line XVI, XVI in Fig. XiII, showing the spring pressed pawl and one-toothed ratchet connecting the coaxial shafts of said dollars and cents dials. Fig. XVII is an inside elevation of the housing plate shown at the bottom of Fig. V, which carries the set-back gearing. Fig. XVIII is an elevation of said housing plate and gearing as seen from the left hand side of Fig. XVII. Fig. ma an outside elevation of the lock casing of the set-back mechanism removed from the outer wall of the pump housing shown inFig. I which supports it. Fig. XX is a vertical sectional view of said lock casing, taken on the line XX, XX in Fig. XIX. Fig. XXI is a fragmentary irregular vertical sectional view taken on the line XXI, XXI in Fig. III in the direction of the arrows on said line showing parts of the set-back mechanism. Fig. XXII is a diagram, on the same scale as Fig. VIII, indicating the position of the set-back gears shown in Figs. VIII and XVII with reference to the gears of the computing mechanism with which they are adapted to engage when the set-back mechanism is operated. Fig. XXIII is an elevation of the left hand side of the mechanism shown in Figs. II and III. Fig.. XXIV-is a fragmentary vertical sectional view, on the plane of i Fig. IV but showing modified means for connecting the dollars and cents dials. Fig. XXV is a fragmentary vertical sectional view, taken on the line XXV, XXV in Fig. XXIV in the direction of the arrows. Fig. IDIVI is a fragmentary vertical sectional view, taken on the line XXVI, XXVI in Fig. XXIV in the direction of the arrows.

Referring to Fig. I, the liquid dispensing apparatus is principally contained in the housing which is adapted to be rigidly mounted upon a pavement or a platform at a curb or driveway and includes three transversely extending cast metal frame members, viz., the base member I, the in-. termediate member 2, and the top member 3. Said frame members I, 2 and 3 are rigidly connected in the vertical relation shown by a columnar frame including'the standards 4 connecting the frame member I with the frame member 2, and the standards 5 connecting the frame memher 2 with the frame member 3. Said housing includes the lower casing section 6 extending between said frame' members I and 2 and the upper casing section I extending between said frame Both of said sections 6 and l are rectangular tubes of sheet metal with rounded corners.

The liquid to be dispensed is conveniently stored in an underground tank from which it is elevated through the pipe 9 by the operation of the pump i0. Said pump includes a rotor having the shaft H with the grooved pulley l2 connected by the belt IS with the grooved pulley M on the armature shaft I! of the electric motor II. The liquid is discharged from said pump ll through the conduit i8 into the flow meter II from which it is discharged through the conduit 20 and the sight gage 2| into the flexible dispensing hose 22 which is provided at its free end with the nozzle 23 including the valve 24 which is normally closed but may be opened by the dispensing operator. The hook lever 25 whichis fulcrumed at 20 on said casing 1 is provided to support the hose nozzle in idle position, the outer end of said lever being then depressed by the weight of the hose and nozzle. The inner end of said lever 25 is pivotally connected with the vertically reciprocatory rod 21 which carries the bracket 28 for operating the electric switch 29. The arrangement is such that when the outer end of said lever is lowered, as shown, said switch 29 is opened to deenergize said motor i8 and stop the operation of said pump I0, but,

when said lever 25 is raised at its outer end, said switch is closed to operate said pump.

Said flow meter l9 includes a rotor which is turned by the passage of liquid therethrough from said conduit II to said conduit 20 and has the shaft II which makes one revolution for each gallon of liquid passed through said meter. As indicated in Fig. IV, said meter shaft is arranged to operate the computing and registering mechanism above contemplated by means of the coupling 32 which connects said shaft 3| with the shaft 33 and is loose enough to permit said shafts to be slightly out of alinement. Said shaft 32 is journale'd in the bottom wall 34 of the computing mechanism housing which includes the opposite endwalls 35 and 36, the opposite side walls I1 and I8, and the top wall I. Said wall 31 is removable, to permit manipulation of said interlocking means, by the operator but is normally secured in the closed position. shown, by mrew and lock means hereinafter described. Said shaft 33 is also journaled in the bracket 4! extending upwardly from said bottom wall 34 and carries the miter gear 42 engaging the miter gear 43 on the tubu- 'lar shaft 44 which is mounted to rotate on the solid shaft 45 which is journaled at its opposite ends in said end walls 35 and 36. Said tubular shaft 44 carriesthe gear 48 which meshes with the gear 41 on the shaft 4!, which is iournaled in the end wall 36 and in the intermediate partition wall 49. Said gears 4 and 41 are of the same diameter, so that said shaft 48 is turned one revolution by each revolution of said meter shaft 3|. Said shaft 48 rigidly carries a conical assemblage of thirty gears including opposite end gears II and 4 52 respectively corresponding with the highest and the lowest price of the fluid dispensed. Said thirty gears may be selectively connected with the long pinion 53, which is rigid in the pawl head- 54 by which the dials indicating the amount of sale of the liquid dispensed are turned, as hereinafter described.

Such selective connection is effected by the gear 5! which is continually in mesh with said pinion 52 and is carried by the rocker frame 56 so that it may be lifted to and from engagement with selected gears in the conical series St to 52. Said: frame 56 carries the blade 51 which, in any engaged position, extends as shown in Fig. IX into the interlocking sleeve I which is controlled by the whole cents price display dial 60, which may be manually turned by the operator to display the desired price. Said'sleeve 58 includes a series of thirty arcuate slots in its periphery of which four are designated respectively GI, 82, 63, and 84." Said series of slots are so disposed in spaced relation circumferentially and axially as to correspond with the numbersv on said dial 8. which represent the whole cents of the pricey and, in the embodiment of my invention illustrated, range from six cents to thirty-five cents. The slots 6i corresponds with the price of thirty-five cents; the slot 52 corresponds with the price of twenty-one cents; the slot 63 corresponds with the price of seventeen cents; and the slot 64 corresponds with the price of six cents. As shown in Figs. III and V, said dial 60 is in fact a ring having the cross plate 66 extending diametrically between the numbers 6 and 35,upon one side and the numbers 20 and 21 upon the other side to support said ring in connection with its axial hub 61 and shaft 68. Interruption of the regular spacing of said numbers by the interposition of the ends of said plate 66 necessitates a corresponding irregularity in the spacing of said slots in said sleeve 58 which is rigidly connected with said shaft 68 so that said sleeve may be turned with said dial 60 to display a selected cents number of the price at the price display window 69, in the panel 10, shown in Fig. II, and at the same time locate the proper slot in the series on said.

sleeve 58 in position to receive the blade 51 when the gear 55 is in mesh with the proper price gear of the series 5I to 52 on said shaft 48. In the position shown in FigwlV, said blade is in the slot 6.3 corresponding with the price of seventeen cents, and thus positions the gear 55 in mesh with the gear 5| on said shaft 48, which gear 5] is the seventeen cent price gear.

Said sleeve 58 has at the right hand end thereof in Fig. V the ratchet head'1I which has a circular series of thirty depressions 1.2 in its circumference to selectively engage a ball detent 13 which is mounted in the bearing 14 on the housing wall 36 and provided with the spring 15 secured by the cover screw 16 causing said ball to continually frictionally engage said head by engagement with successive depressions 12 therein. The annular abutment flange 11 on said sleeve 58 serves to hold said sleeve in proper axial position by contact with the inner face of said bearing 14.

The similar interlocking sleeve 19 which is controlled by the fractional cent price display dial is mounted to turn freely on the left hand end of said shaft 68 which, as above noted, is rigidly mounted in said sleeve 58. 'Said" dial 80, may be manually turned by the operator to display the desired price. As indicated in Fig. III, said dial 80 has a circular series of nine numerals thereon respectively .1 to .9, representing tenths of a cent, for display through said window 69 at the right of the displayed numeral of the dial 6!). Said sleeve 19 has a series of ten arcuate slots of which three are marked' BI, 82, and 83. The slot 8I corresponds with the fractional cent price of .1 and the slot 82 corresponds with the fractional cent price of .9. The slot 83 corresponds with the zero position of said dial between the numerals .1 and .9 which position represents .0 cent, and a zero mark might be included between the last named numerals but is omitted because of its similarity to the numera .9 which might be confusing to the operator and customer. Said sleeve 19 has the ratchet head 85 which has a circular series of ten depressions 86 in its circumference to selectively engage a ball detent 81 which is mounted in the bearing 88 on the housing wall 35 and provided with the spring 89 secured by the cover screw 90, causing said ball to continually frictionally engage said head by engagement with successive depressions 86 therein. The annular abutment flange III on said sleeve 19 serves to hold said sleeve in proper axial position by contact with the inner face of said bearing 88. Said sleeves 58 and 19 are thrust apart, against said bearings in the walls 35 and 36, by the spring 92 encircling said shaft 68 between said sleeves.

Said slots in the sleeve 19 are adapted to re eeive the blade 94 carried by the cam lever 95 which is fulcrumed on the screw shaft 96 which engages it as a nut, so that it may be adjusted axially, by turning said shaft by its knob 96', when said blade 94 is disengaged from the sleeve 19. Such disengagement may be effected maually by the operator. Said lever 95 may be thus shifted to cooperate with any one of the series of nine cams, of which three are respectivelymarked 91, 98, and 99, and which are rigidly mounted upon said sleeve 44, which is turned one revolution by the meter shaft 3I for each gallon of liquid dispensed. Said cams have respectively different numbers of notches corresponding with the different numbers of tenths of a cent, from .1 to

.9, which they add to the computation, as hereinafter described. For instance, the cam 91 has one notch 91, the cam 98 has three notches 98', and the cam 99 has nine notches 99.

The knocker plate I00 is carried by said shaft 96, as indicated in Figs. IV and X, between said end wall 35 and thepartitionwall 49 so that it is capable of rocking movement, to be raised by said earns 91 et seq. and may be lowered, with reference to Figs. IV and VIII, by said lever 95 when the latter is in registry with any notch in said series of nine cams. Said plate I00 is continually in cooperative relation with theshort arm of the knocker lever IOI which is fulcrumed at I02 upon the bracket I03 projecting from said partition wall 49 toward said wall 35, as indicatedrin Fig. IV. The long arm of said lever IN is bifurcated as indicated in dotted lines in Fig. X, and its free ends bear upon the thrust bearing ring I04 for the balls I 04'; which ring is free to turn and slide axially on the sleeve I05, under stress of the knocker spring I M, to advance the value computer one-tenth cent whenever said lever 95 rises from a cam notch. Said sleeve is mounted to axially reciprocate on the shaft I06 which is in coaxial relation with said long pinion 53 and has its inner end journaled in the recess I01 in the reduced cylindrical outer end I08 of said pinion upon which said pawl head 54 is rigidly secured by the tapered pin I 09, Said shaft I 05 is journaled at its outer end in the bearing I ID on said casing wall 35. Said shaft I06 has the key I II engaging said sleeve I05 so that turning movement of said sleeve I05 turns said shaft I06 which is cut to form the gear pinion H2 in mesh with the gear II3. Said gear H3 is in coaxial relation with the shaft II5 withwhich the dollar unit dials H6 and H1 are rigidly connected at its opposite ends, as shown in Fig. IV, but is carried by the tubular shaft II8 which is mounted to turn freely on said shaft I I5 and journaled in the bearing H9 in the housing wall plate 35 which supports both shafts at that end. However, said gear H3 is connected with said shaft II8 by friction clutch means to permit said gear II3 to remain stationary while said shaft is turned in the reverse direction to set the value indicating dials back to zero position, as hereinafter described. Such means includes the abutment rings I20 and I2I which are rigidly connected with said shaft H8, and the spring I22 which is compressed between said abutment I2I and said gear II3 to press the latter in frictional engagement with the clutch rings I23 interposedbetween said gear H3 and the abutment I20. Said tubular shaft I I8 has, rigidly connected therewith, thedial I25 graduated with marks, partly indicated in Figs. II and III, indicating one hundred cents. Said shaft II8 also has rigidly connected therewith the detent ratchet Wheel I 26 by which it is detained, as hereinafter described, with the graduations of said cents dial I 25 successively presented in registry with the index window I21 in said panel 10, shown in Fig. 11. Said cents dial shaft H8 also carries the gear I 28 by which it is connected to cause the dollar dials H6 and H1 to turn, as hereinafter described.

As above described, said shaft 48 carrying the conical assemblage of gears 5| to 52 is turned one revolution for each gallon of liquid dispensed through the meter I9 and in accordance with the gear selected in the conical series from 5| to 52 said long pinion 53 carrying the pawl head 54 turns the latter more or less for each gallon dispensed in accordance with the whole cent price per gallon to which the apparatus has been adjusted, as above described. Said pawl head, which is shown in Figs. IV, VIII, and X, carries two pawls I29 and I30 which, as shown in Fig. X, are respectively pivoted upon pins I3I and I32 in segmental recesses cut in said head 54, so that the ends of said pawls are pressed inward by respective springs I34 and I35 to engage the teeth of the ratchet wheel I36 which is rigidly mounted upon the inner end of said slidable sleeve I05.

When released by said cam lever 95, said sleeve and ratchet may be thrust to the left in Fig. IV by the spring IOI, to the limit determined by the stop ring I31 secured at the open end of said pawl head 54 by screws I31. Said ratchet I36 has one hundred teeth which are parallel with its axis of rotation, and the pawl I29 has its edge also parallel with said axis and said pawl serves as a driving connection between said pawl head 54 and said ratchet to transmit to the pinion H2 the number of revolutions of said pawl head as turned by the whole cent computing mechanism above described. However, said pawl I30 has its edge which engages said ratchet I36extending at an angle of twenty degrees to said axis so that, when the knocker lever IN is raised by any crest of the selected fraction of a cent cam, said ratchet I36 is thrust axially with respect to said pawl head 54, (against the pressure of said spring IOI and the tooth of said ratchet then registering with the pawl I30 is thrust in the same .irection as the rotation of said pawl head 54 but so as to advance said ratchet I36 with respect to the rotation of said head to the angular extent of one tooth by each such knocking actionQIn other words, each gallon of liquid dispensed effects one revolution of the cam sleeve 44, and adds to the computation movement imparted to said ratchet I36 from the selected gear of the conical series connected with the pinion 53, an amount determined by the cam selected, f0 instance, the one-tenth cent cam 91 advances said ratchet but one of its one hundred teeth, whereas, the nine-tenths cent cam 99 advances it nine teeth. Thus there is aggregated in the movement of said ratchet (and the pinion I I2, gear I I3, and value indicating dials connected therewith) the computed values of the whole cents and fractional cent portions of the price per gallon of the liquid dispensed.

The aggregate movement of the gear H3 effected as above described turns the cents dial I25 counterclockwise in Figs. 11 andIII to indicate at the window I21 in the panel 10 the full value of the liquid dispensed, but, as each revolution of that dial indicates but one hundred cents of such value, I provide means cooperatively connecting said dial I25 with the dollars dial H6 so that each revolution of said cents dial I25 turns the dollars dial H6 to the angular extent from one dollar number to the next thereon. Such means include the gear I28 on the cents dial shaft II 8 which, as shown in Fig. XIII, engages the gear I36 on the cents dial connecting shaft I39 which is journaled in said opposite end wall plates 35 and 36. Said shaft I39 carries, adjoining said housing wall 36, the gear I40 engaging the gear I 4| on the hub I42 of the ratchet wheel I43 which is the same diameter and has the same number of teeth as the ratchet wheel I26. Said ratchet wheel I43 carries the cents dial I 45 which is graduated to indicate one hundred cents like the dial I25. Thus the amount of sale is simultaneously registered and displayed upon opposite sides of the housing and respectively visible through said window I21 in the panel 10 and through a corresponding window in the panel I46 which is precisely like the panel 10.

As shown in Fig. III, said ratchet wheel I26 is detained in each position to which it is shifted so as to accurately successively register its one hundred graduations with respect to the index pointer I21 shown in Fig. II, by the roller I41 carried by the lever I48 which is fulcrumed on the stud I49 projecting from the housing wall plate 35, and pressed toward said ratchet I26 by the spring I50 which encircles the hub of said lever I49 as indicated in Fig. IV, and has one end engaged with said lever and the other with said plate 35. Said ratchet I43 at the opposite end of the housing is similarly engaged by the roller I5I carried by the lever I52 fulcrumed on the stud I53 projecting from the housing plate 36 and pressed toward said ratchet I43 by the spring I54 which encircles the hub of said lever I52, as indicated in Fig. IV, and has one end engaged with said lever and the other with said plate 36.

Said shaft H5 with which the dollar unit dials H6 and H1 are rigidly connected at its opposite ends, as shown in Fig. IV, is continually stressed to turn it counterclockwise in Fig. III by means of the helical spring I55 shown in Fig. XIII encircling said shaft and having its right hand end engaged with the hub of the ratchet wheel I56 shown in Figs. XIII and XV, which is pinned to said shaft. Said spring I55 has its left hand end engaged with the lever I51 which is fulcrumed on said shaft H5 and has its outer end continually engaged with the stud I56 on the intermediate frame plate 49. Said spring is initially subjected to such torque as to enable it to turn said shaft H5 a complete revolution, with such force as to continually hold it in proper position. Said spring is rewound to its original tension by the operation of setting back the registering mechanism to its zero position, as hereinafter described; by means of the gear pinion I60 which is rigidly connected with said shaft H5 and in mesh with the sectoral gear I6I which is loose on said cents dial connecting shaft I39. Said spring I55 is permitted to advance said dollars dials H6 and H1 by means of the escapement illustrated in Figs. IV, XIII, and XV including said ratchet wheel I56. Said ratchet wheel has, in cooperative relation therewith, the two escapement pawls I62 and I63 which are both fulcrumed on the pin I64 in the bracket I65 rigidly connected with said housing wall plate 36, as indicated in Fig. XIII. However, as indicated in Fig. XV, the pawl I63 is shorter from its fulcrum to its edge engaging said ratchet I56 than the pawl I62.

Both of said pawls are pressed into cooperative pets are rigidly connected with each other and with the circumferential flange I10 by the sleeve I1I which is loose on said shaft I39 but operatlvely connected to be turned by said shaft counterclockwise in Fig. XV by means of the pin pawl I12 carried by the collar I13 which is rigidly connected with said shaft I39 by the set screw I14 shown in Fig. XIII. Said pin pawl I12 is continually stressed inward by the spring I15 shown in Figs. XIII and XV which is connected at one end to said collar I13; so that said pin pawl engages the single toothed ratchet I16, as shown in Fig. XV, to normally turn said tappets I68 and I69 counterclockwise as in Fig. XV as if they were rigidly connected with said shaft I39. That ratchet and pawl connection between said shaft I39 and said tappets I68 and I69 is merely to permit said shaft to be turned clockwise independently of said tappets during the resetting operation which winds said spring I55, because said tappets cannot be turned in that direction, being stopped by contact of the tappet I69 with the free end of the pawl I63, as may be observed with reference to Fig. XV. Said circumferential flange I19 merely serves to separate the free ends of said pawls I62 and IE3 as indicated in Figs. XIII and XV so as to prevent them from interfering with each other.

Said shaft I39 turns counterclockwise in Fig.

XV and with the effect that at the completion of each revolution of said shaft I39 which corresponds with each revolution of the cents dials I25 and I45, said pawl I62 is first tripped, by

p the tappet I 68, to permit the shaft H and its ratchet I56 to turn the slight angular extent from engagement with the pawl I62 to engagement with the pawl I63; so that the pawl I62 is replaced in contact with the ratchet I56 past the crest of the tooth of said ratchet caught by said pawl I63. Thereupon, the pawl I63 is tripped, by the tappet I69, so as to permit said shaft H5 and ratchet I56 to turn the angular extent from one of the ratchet teeth to the next, which is stopped against the end of said pawl I62, in the position shown in Fig. XV, thus advancing said dollars dials H6 and H1 the extent of one dollar for each revolution of said cents dials I25 and To permit the setting back of said dials to the zero position, I provide said shaft I39 with the loose clutch sleeve I11 shown in Fig. ml, which, as shown in Fig. XIII, has the diametrical projection I11 extending in the larger recess I18 in the hub I18 .of the gear I19. Said gear hub and sleeve are encircled by the spring I19, respectively connected therewith at its opposite ends and stressed so that said gear I19 is continually subjected to torque on said sleeve counterclockwise in Fig. VII, to afford sufiicient loss of motion to insure that more than one toothof the sectoral gear 239 shall be in mesh with said gear I19 before the latter encounters said projection I11 and the load to be set back. Said sleeve I 11 is loose upon said shaft but continually frictionally engaged therewith by means of the friction disks I80 interposed between said sleeve and the flanged disk I8I which isrigidlyconnectedwith said shaft. Such frictional engagement is caused by the spring I82 between said sleeve I11 and the collar I83 encircling said shaft. Said collar is adjustably secured on said shaft by the set screw I 84 so that the frictional engagement of said gear I19 with said shaft I39 shall be sufficient to overcome the frictional engagement of the spring I22 upon the registering mechanism driving gear H3 during the resetting operation. However, before describing said resetting operation, I will describe the volume indicating and registering mechanism which is adapted to be reset to zero position by the same means.

Referring to Fig. IV, said tubular shaft 44 which is turned one revolution for each gallon of the liquid dispensed through the meter I9 and carries the series of nine cams including those marked 91, 98, and 99, is frictionally engaged with the shaft 45 which it encircles. by the friction disks I86 interposed between said cam 99 and the collar I81 which is pinned on said shaft. Said disks are pressed by the spring I88 which, as shown in Fig. IV, is interposed between the right hand end of said tubular shaft 44 and the loose sleeve I89 which encircles the shaft 45 and abuts against the gear I90 fixed on said shaft 45 and by which it may be set back, as hereinafter described. Said shaft 45 has fixed upon its respectively opposite ends the oppositely counterpart fractional gallon dials I92 and I 93; the dial i being shown in Figs. II and III. Each of said dials has a circular series of ten numerals thereon respectively 1/ 1G to 9/10 which represent tenths of a gallon, and zero representing the whole gal Ion. Said dials are normally turned by such friational connection of said shaft 45 with the gear 43 shown in Fig. IV in mesh with the gear 32 driven by the shaft SI of the meter I 9, to indicate and register fractions of a gallon dispensed. Such frictional engagement of said shaft 45 with the tubular shaft 44 which normally drives it, is merely to permit said shaft 45 to be set back to present said dial I92 in zero position at the window I94 and with respect to the index pointer I94 in said panel 10, and the dial I93 at the corresponding window in said panel I46, while the shaft 44 is held stationary by its connection with the meter I9.

The whole gallons dials I95 and I96 are respectively journaled upon the hubs of said fractional dials I92 and I93 as shown in Fig. IV, and prevented from axialdisplacement thereon by the collar I91 and the hub I98 of the tappet cam I99 which are fixed upon the shaft 45 by the pins securing said dial hubs. Dials I95 and I 96 have oppositely counterpart circular series of twenty numbers thereon from 1 to 0 representing twenty gallons, the zero also representing the initial position of the dials. As said dials I95 and I96 are turned, the numbers thereon are respectively presented at said window I94 in the panel and at the corresponding window in the panel I46.

To turn them, I provide said dials I95 and I96 with respective gears 200 and MI in mesh with respective gears 202 and 203 on the gallons dials connecting shaft 204, as shown in Fig. V. As shown in Figs. V and XXI, said shaft 204 is journaled in said opposite end plates 35 and 36 and the intermediate plate 49 of the computer housing; endwise movement of said shaft being prevented by the hub of said gear 202 and the collar 205 opposed thereto upon the inner face of the wall 35 and pinned to said shaft, as shown in Fig. XXI. Said tappet cam I99 carried by said shaft 45 of the fractional gallon dials I92 and I93 makes one revolution for each gallon dispensed through the meter I9, and as shown in dotted lines in- Fig. VII, is in effect a gear with a single tooth adapted to successively engage the ten teeth on the star wheel 201 shown at the left hand end of said shaft 204 in Fig. XXI conveniently in unitary relation with said gear 203. The relation of said tappet cam I99 and said star wheel 20! is such that at each revolution of said fractional gallon dials said shaft 204 is i turned 1/10 of a revolution and turns said galions dials I 95 and I96 1/20 of a revolution to register and indicate dispensation of a gallon. Said dials are detained in each position to which they are thus shifted by respective rollers-208, indicated in Figs. III, IV, and VII, carried by levers 208 fulcrumed on the studs 35' and 35' (respectively projecting from the housing wall plates 35 and 36) and pressed toward said gears by respective springs 208" which encircle the hubs of said levers and each having one end engaged with its lever and the other with its supporting plate.

Said registering and indicating mechanism is arranged to be set back to zero position by clockwise rotation of the crank 209 shown in Fig. VIII extending exterior to the upper casing section 'I. Said crank is operatively connected with the setback shaft 2 III extending through said casing section 'I and journaled at its outer end in the bearing 2 in the cross bar 2 I2 which is detachably rigidly connected with the lock casing 2I3. The inner end of said set-back shaft 2 III is journaled in the bearing 2I4 in said casing 2I3 and provided with the cross pin 2 I5 engaging the slightly loose coupling 2 I5 which has the slot 2I'I engaging the cross pin 2 I8 on the shaft 2 I9 which is journaled in said housing side wall 38 and the pocket shaped bracket 38' which is in unitary relation therewith, as shown in Fig. V. Said shaft 2 I9 carries the bevel gear 220 engaging the bevel gear 22! on the shaft 222 which extends parallel with said shaft 204 and is journaled in said bracket 38 and in the bracket 38" on said plate 38. Said shaft 222 carries the gear 223, the right hand end of which, as shown in Fig. V, engages the gear 224 which is journaled to turn loosely on the stationary shaft 225 which is fixed in the bearings 226 which are in unitary relation with said wall plate 38, as shown in Figs. V and XXI. Said gear 224 is in unitary relation with the gear 22'! which, during the set-back operation, engages the gear 228 which, as shown in Figs. V and XXI, has its hub provided with the diametrical recess 228' for engagement with the smaller diametrical pro- .iection 228" on the loose clutch sleeve 228. Said gear hub and sleeve are encircled by the spring 228 respectively connected therewith at its opposite ends and stressed so that said gear 228 is continually subjected to torque on said sleeve 228 counterclockwise in Fig. VII, to afford suflicient loss of motion to insure that more than one tooth of the sectoral gear 221 shall be in mesh with said gear 228 before the latter encounters said projection 228" and the load to be set back. Said sleeve 228* is frictionally engaged with said tubular shaft 229 by the friction disks 232 extending between the hub of said gear 229 and the gear 233, (which latter is pinned to said shaft 229, as shown in Fig. XXI), under pressure of the spring 234 compressed between said gear 228 and the abutment collar 235 fixed on said shaft 229. However, as indicated in Fig. XXII, said gear 221 is devoid of teeth throughout its sector 221 which registers with said gear 228 when the indicating mechanism is in zero position, so that the set-back mechanism is not turned by the normal operation of the volume registering indicating mechanism. Said gear 233 which is at the left in Fig. XXI is in mesh with said gear I on the shaft 45 at the right in Fig. IV so that rotation of said set-back crank 209 clockwise with reference to Fig. VIII turns said shaft 45 and the volume indicating dials I92, I93,

I95, and I clockwise with reference to Fig. II to reset them to zero position while the tubular shaft 44 shown in Fig. IV encircling said shaft 45 remains stationary in its connection with the meter mechanism; the friction disks I95 slipping during said setting back operation despite the pressure of the spring I88. Said dials I95 and I95 are stopped in zero position by the one tooth ratchet 20I' shown in Figs. IV and VII which is rigidly connected with said gear 2III and adapted to be then caught by the gravity hook latch 20I" which is fulcrumed on the stud 35" projecting from the housing plate 38. Said latch is merely idly lifted by the normal rotation of said ratchet 20I', clockwise in Fig. VII.

The operation of said set-back mechanism by the crank 209 as above described also effects the return of the value indicating dials H6, H1, I25 and I45 to their zero position by the following means: Referring to Figs. XXI and XXII, said gear 223- is also in mesh with the gear 235 which is journaled to turn loosely on the stationary shaft 231 which is fixed in the bearings 238 which are in unitary relation with said wall plate 38, as shown in Fig. XXI. Said gear 235 is in unitary relation with the gear 239 which, during the setback operation, engages the gear II9 which as above described is frictionally engaged with the shaft I39 by the spring I82, as shown in Figs. E11 and XXI. However, as indicated in Fig. XXII, said gear 239 is devoid of teeth throughout its sector 239 which registers with said gear I19 when the indicating mechanism is in zero position so that the set-back mechanism is not turned by the normal operation of the computing registering indicating mechanism. The connections between said shaft I39 and the cents value indicating dials I25 and I45 above described with reference to Figs. IV and XIH are such that the setting back operation aforesaid returns those dials to their zero position by their respective gears I28 and HI by clockwise rotation of said dials with reference to Figs. II and III and independently of the shaft II5 which carries the dollars value indicating dials,

However, it is to be understood that any suitable power multiplying gearing may be employed between the crank 209 and the indicating dials aforesaid to facilitate resetting the latter to zero position.

As shown in Fig. XVI, said shaft I I5 has rigidly fixed thereon within the hub I42 of said dial I45 the single toothed ratchet 240 shown in Figs. IV and XVI, and said hub carries the pin pawl 24I continually pressed toward said ratchet by the spring 242 which is fixed at one end to said hub so that when said dials I25 and I45 are restored to zero position, said pawl and ratchet are in the position shown in Fig. XVI. Moreover, said shaft I39 is provided with the single toothed ratchet 244 rigidly connected therewith by the set screw 245, as shown in Figs. XIII and XIV so that when the dials have been restored to zero position, said ratchet is engaged by the pawl 246 which, as shown in said Figs. XIII and XIV, is fulcrumed on said stud I 58 upon the side of said intermediate housing plate 49 opposite the lever I51; so that the sectoral gear ISI which has been turned clockwise in Fig. XIV to wind the spring I55 by engagement with the pinion I50 fixed on the shaft I I5 cannot be accidentally turned out of engagement withsaid pinion. However, the first dispensing operation thereafter which permits escapement of said spring to turn the dollars dials I I6 and II! as above describedcauses said pinion I 60 to turn the sectoral gear l6l counter-clockwise in Fig. XIV and so that the cam crest 241 on said gear i6l which is engaged with the stud 248 on said pawl 246 in the zero position shown in Fig. XIV, thrusts said pawl, by said stud, out of engagement with said ratchet" 244 so that said stud is received into the notch 249 in said gear 161 during the further escapement of said spring I55, but such movement is limited by the encounter of the stud 249 with the inner end of that notch 50 that said gear IN is not disengaged from the pinion I60 by movement in that direction. It is to be understood that said spring I55 is thus rewound to its normal initial tension by each resetting operation and only to the extent which it has become unwound by escapement consequent upon the dispensation of liquid at each dispensing operation.

As indicated in Figs. VIII, XIX, and XX, said set-back shaft 210, arranged to be operated by the crank 289 as above described, is provided with means operatively connecting it with the hose hook lever 25, including the lever 258 fulcrumed at 25| in said lock casing 2l3 and pivotally connected with said lever 25 by the link 252; the arrangement .being such that said hose hook lever 25 cannot be operated to close the switch 29 to start a liquid dispensing operation unless and until said computing registering indicating mechanism is restored to its zero position. However, the specific construction of that interlocking mechanism shown in Figs. VIII, XIX, and XX is the subject matter of my copending application (82-34) Serial No. 754,201 filed November 22, 1934, and therefore will not be further described herein. 7

As above noted; the numbers on the price display dials 60 and 80 are manually selected for presentation at the window 69 in the panel 10 shown in Fig. II to manifest the price per gallon at which the computing apparatus is set to compute the amount of sale at each dispensing operation. I find it preferable to provide dials 253 and 254 which are respectively, oppositely counterpart to said dials 60 and 80 to display the same price with respect to a window 255 in the panel I46 at the opposite side of the machine. As shown in Fig. V, the hub 256 of said dial 253 is journaled upon the stud 251 which is fixed in the housing wall plate 36 and said dial prevented from axial displacement by the screw 251' engaging said stud. Said hub 256 of the dial 253 has, upon the inner end thereof, the gear 258 by which said dial 253 is turned in precise accordance with the turning movement of said dial'60 by the means hereinafter described. As shown in Fig. V, said dial 254 has its hub 259 loosely journaled on said hub 256 of the dial 253 and provided at its inner end with the gear 260 which is separated from said gear 258 by the loose ring 26! in coaxial relation with both of said dial hubs. As shown in Figs. V and VII, said gear 266 is in mesh with the sectoral gear 263 for transversely connecting said dial 254 with the dial 80. Said gear 263 is mounted to oscillate upon the stud 264 which, as shown in Fig. V, is rigidly secured in the housing wall plate 36 by the nut 265. At its opposite side, said gear 263 is in mesh with the gear 266 which is loosely journaled on the shaft 68 which is rigidly connected with the interlocking sleeve 58 having the series of recesses in its circumference axially spaced with respect thereto as above described and as indicated in Figs. V and VI. Said gear 266 is loosely retained upon said shaft 68 by the screw 261 and washer 268 and is in mesh with the gear 269 fixed on the counter shaft 21i which extends parallel with said shaft 68 and is journaled in the bearings 212 and 213 respectively in said housing wall plates 36 and 49, as shown in- Fig. VI. Said counter shaft 21l has, rigidly connected therewith, adjoining said frame plate 49, the gear 214 in mesh with the gear 215 conveniently formed in unitary relation with the interlocking sleeve 19 which, as above described and shown in Fig. V, is rigidly connected with the dial 80. The arrangement is such that when said dial 80 is manually turned, conveniently by manipulation of said sleeve 19, to display the fractional cent of the current price at the window 69, as shown in Fig. II where .3 is displayed, the oppositely counterpart dial 254 is turned to display the same price at the window 255 in the panel 146. The spring 92 shown in Fig. VI interposed between the left hand end of said sleeve 58 and the right hand end of said sleeve 19, imposes a desirable amount of friction to the freedom of turning movement of said sleeve 19, to facilitate the manipulation of the latter and hold said sleeves in their proper relation with their respective detent devices shown in Fig.

Referring to Figs. V and VII; the sectoral gear 216, which is precisely like said gear 263. is mounted to oscillate upon the same stud 264 to connect said gear 258 on the hub of the dial 253 with the gear 219 which is conveniently formed in unitary relation with the end of said interlocking sleeve 56, so that rotation of said dial 66 by manipulation of said sleeve 58 which is rigidly' connected with the shaft 68 of that dial, effects corresponding rotation of the dial 253 to present the same selected cents price number upon said dial 60 at the window 69 (where the number 1'7 is displayed in Fig. II) and upon said dial 253 at the window 255 in the panel I46.

As shown in Fig. VII, the housing plate 36 is provided with two stop lugs 280 projecting therefrom so as to be encountered by both of said sectoral connecting gears 263 and 218 merely to prevent accidental excess movement of either of said sectoral gears.

I find it convenient to provide each of said windows 69 and 255 with a pane of plane glass 282 backed by a lens 283 which is a segment of a cylinder having its axis extending in a horizontal plane so as to magnify the small price displayed numerals 1'1.3 to appear larger than their actual size shown in Fig. II.

Referring to Figs. III, IX, X, and XXIII, the housing wall plate 31 has two openings near its upper edge to receive the dowel stud: 285 and 286 projecting from the top wall platev 39 so as to precisely locate said plate 31 upon the housing. Said plate 31 is secured in closed position by the screw 281 which engages in a threaded socket in the flange 49' on the adjacent edge of the intermediate, wall plate 49. Said screw has the milled head 283 projecting exterior to said plate 31 for convenient manipulation by the operator. However, in order to securesaid plate 31 upon the housing so that it cannot. be removed by any unauthorized person, I provide said plate with the lock 290, conveniently of the pin tumbler type, and controllable by a key inserted in the hole 29l to rotate the lock barrel 292, indicated in dotted lines in Fig. III, which carries the radial arm 293 which in locked posi- I When in the closed position shown, said removable housing plate 31 not only secludes the 

